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    <br/>第十三章_DNA_数术推导与RNA_X_THF_DD元基芯片与肽逻辑
    <br/> 作者: 罗瑶光, Author:Yaoguang.Luo<br/>
    <br/>
    <br/>
    <br/>感想
    <br/>
    <br/>整理ppt, 今天20220407我得到一个思维, 随着甲基胞嘧啶确定变嘧啶的语义作用,
    DNA生物计算机模拟数字逻辑其实只要一个尿嘧啶 代表1 一个胞嘧啶代表0 就可以了,
    尿嘧啶带甲基语义理解为做补码识别,
    但是这种机械的数字逻辑理解会出现了一个问题, 便是嘧啶和嘌呤结构的羟基 氨基排列
    仅常见的就高达16种, 而生物计算机不是靠晶振来驱动触发器.
    不可能有每秒心跳3G的 频率, 所以作者的语义元基才是真正的终极, DNA依旧是智慧语言的表达.
    (当然化学基也有自己的固有电磁信号,
    晶振应用研究有论据, 作者这里不涉及全文主体, 先略) 罗瑶光
    <br/>
    <br/>Arrangement of PPT, notes of 2022-04-07. The author did a density
    of thinking. After a definition of U Initon, the author considered a
    data storage of DNA computer, which could only enough to have had I and
    D intion. Meant I for true and D for false, the Q and U seems to do a
    complement and 2s' complement. But it might cause a fatal problem with
    this method. Due to the more than sixteen structures of the pyrimidine
    and purine, neither a cristal-shaking and nor a flip-flop. The author
    considered a frequency pulsed, might not be used here to instead of
    this literary Initon and these PDE formula. Although It had Its own
    frequent magnetism.

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         alt="浏阳德塔软件开发有限公司,罗瑶光"/>


    <br/>
    <br/>发现｛F, DU｝ 比例减少, 这里补酸 这里的 F 似乎 是 3 NH 与 IQ 组合, 不够稳定, F
    并有一定几率被 C 鸟
    嘌呤替代.
    <br/>
    <br/>我得到一个 F 嘌呤 在酸碱峰来临时候会 全部断开的过程, 断开便意味着 饱和重组.
    最后这些重组的大小规则长度都不一的新 RNA 拥有各自固有的电磁频率. 参与频率叠加组合相应的
    神经驱动钥匙, 完成相应的 RNA 计算逻辑. 前年在设计 养疗经的 智能声诊的 组件页 时候,
    我开源了 用傅里叶变换来提取人类发音的 元音 A O E I U 五个元音的训练集合 并生成 text
    的训练文档, 分别包含了 5 个元音的 周期 频率对应的 振动叠加 信号.
    <br/>
    <br/>The author did an observation of F, DU chains with a digital
    logic way, which could be separated out a small piece of molecule by
    each alkalic-acid peak. The author considered a separated-out Sth could
    cause a combined with Sth, means Sth a totally separated out could
    cause Sth a fully combined with. So that new combinations, which also
    could have Its own a new frequencies and cycle-periods. And these
    combinations and its frequencies, seem to do an incremental computing
    according to nero network and probability of score. Such a few years
    ago, the author did deciphines with the vowels of A, O, E, I and U, to
    do an incremental computing with Its shaking-frequencies, to make a
    bio-target in a domain of noise detection.
    <br/>
    <br/>The author YaoguangLuo 稍后优化语法.
    <br/>
    <br/>电磁与 物理简谐振动 通用这种叠加算法. 我对叠加算法的应用描述是
    <br/>
    <br/>1 声音的元音 等通过周期频率的 振动 分解 组合进行识别人类发音.
    <br/>
    <br/>2 意识的元基同理通过周期频率的电磁信号分解组合识别人类的应激行为.
    <br/>
    <br/>我记录声音的方法比较简单, 用素数来 描述训练集 如
    <br/>
    <br/>周期 PI *K*｛1+ 1/2 + 1/3 + 1/5 + 1/7 + 1/11 + 1/13 + 1/17 + 1/19 +
    1/23 + 1/29
    <br/>
    <br/>+ 1/31 + 1/37 + 1/41 + 1/43 + 1/47. .. .. .. ｝

    <br/>
    <br/>我产生一个论点
    <br/>
    <br/>元基公式在 RNA 芯片计算中是一种频率叠加组合计算公式
    <br/>
    <br/>AOPM VECS IDUQ TXHF DD 十六元基有其各自内在的固有频率
    <br/>
    <br/>fA, fO, fP, fM, fV ,fE ,fC ,fS ,fI, fD, fU ,fQ ,fT, fX ,fH ,fF,
    fDD
    <br/>
    <br/>自然有其周期
    <br/>
    <br/>TA ,TO, TP ,TM ,TV ,TE ,TC, TS, TI, TD, TU, TQ ,TT, TX, TH, TF,
    TDD
    <br/>
    <br/>PDE 肽展公式 对应 这种周期的叠加 公式
    <br/>
    <br/>TA = T{V + S} ;TO = T{E + S} ;TP = T{E + C} ;TM = T{C + S} ;TV =
    T{U + Q} ;
    <br/>
    <br/>TE = T{I + U} ;TC = T{I + D};TS = T{I + Q} ;TI = T{E - U} ;TD =
    T{C - I} ;
    <br/>
    <br/>TU = T{E - I} ;TQ = T{S - I} ;TDD = T{D + D} = T{FF} ;TT = T{V +
    E} ;TX = T{V + C} ;
    <br/>
    <br/>TH = T{(HE + HC)/4} = T{(E + C)/2} ;THE = T{H + E} ;THC = T{H +
    C} ;TII = T{I + I} = T{HH} ;
    <br/>
    <br/>.. .. .. .
    <br/>
    <br/>我开始思考 长度不一, 规则不一, 的各自固有频率的元基 周期叠加组合成 RNA 的频率怎么在养疗经的
    常规计算机语言环境的逻辑中 进行集成这种 周期算法. 于是开始写算法包. 把笔记和 截图 进行了归纳一下,
    于是产生如下公式.

    <br/>
    <br/>DNA
    <br/>
    <br/>T{I} = T(羟基 + 羟基) ;T{D} = T(羟基 + 氨基) ;T{U} = T(羟基 + 氨基 + 甲基) ;
    <br/>
    <br/>T{Q} = T(羟基 + 羟基 + 甲基) ;T{V} = T{Q + U} ;T{E} = T{I + U} = T{D +
    U} ;
    <br/>
    <br/>T{C} = T{I + D} ;T{S} = T{I + Q} ;T{A} = T{V + S} ;T{O} = T{E +
    S} ;
    <br/>
    <br/>T{P} = T{E + C} ;T{M} = T{C + S} ;T{T} = T{V + E} ;T{X} = T{V +
    C} ;
    <br/>
    <br/>T{H} = T{(E + C) / 2} ;T{HE} = T{H + E}T{HC} = T{H + C} ;

    <br/>
    <br/>RNA
    <br/>
    <br/>T{F} = T{D + D} ;
    <br/>
    <br/>T{FF} = T{CC} ;
    <br/>
    <br/>T{HH} = T{E + C} = T{P} ;
    <br/>
    <br/>{} 为元基 ;
    <br/>
    <br/>()为化合基 ;
    <br/>
    <br/>.. .. .. =>T (氨基) = T (2*羟基) ;
    <br/>
    <br/>.. .. .. =>T (甲基) = T ( ？) ;
    <br/>
    <br/>f 频率 = 1 / T 周期 ;
    <br/>
    <br/>关于 T (氨基) = T (2*羟基)的 推导 如下 ;
    <br/>
    <br/>T{HH} = T{E + C} ;
    <br/>
    <br/>T(羟羟 羟羟)= T(羟 羟氨) ;

    <br/>
    <br/>甲基的周期频率比, 在肽展公式中没有可计算部分涉及, 于是我产生 3 个论点
    <br/>
    <br/>1 甲基作用 是掩码, 用于计算.
    <br/>
    <br/>2 甲基作用 是补码, 用于负计算.
    <br/>
    <br/>3 甲基作用 是 carry, 用于正负区分.

    <br/>
    <br/>再细看一遍, 一目了然了, 甲基的作用是 carry.
    <br/>
    <br/>准备论证, 1, 2 见肽展公式 DNA 元基催化与肽计算第三修订版 039009 第 613 页 ;
    <br/>
    <br/>1 甲级作用 是掩码, 用于计算. 如果假设成立, 那么 I 的掩码等于 Q, 事实 I 的掩码是
    D, 假设失败.
    <br/>
    <br/>2 甲基作用 是补码, 用于负计算. 如果假设成立, 那么 I 的补码等于 Q, 事实 I 的补码是
    U, 假设失败.
    <br/>
    <br/>3 甲基作用 是 carry, 用于正负区分. 没有逻辑错误. 可以跟进论证.
    <br/>
    <br/>.. .. .. =>T (氨基) = T (2*羟基)
    <br/>
    <br/>.. .. .. =>T (甲基) = f (carry 标识)
    <br/>
    <br/>新的开始, 准备整理下文档.

    <br/>
    <br/>Implements of magnetic frequent-shaking.
    <br/>
    <br/>According to the mechanical frequent-shaking of vowels with A, O,
    E, I and U, the author considered a magnetic frequent-shaking will
    similar to the mechanics. Meant magnetics and mechanics were combined
    to a physical action. He used prime numbers to make a collection with
    below list of desiphines.
    <br/>
    <br/>period Pi* K* {1+ 1/ 2+ 1/ 3+ 1/ 5+ 1/ 7+ 1/ 11+ 1/ 13+ 1/ 17+ 1/
    19+ 1/ 23+ 1/ 29+ 1/ 31+ 1/ 37+ 1/ 41+ 1/ 43+ 1/ 47. .. }; Pi =
    3.1415926.
    <br/>
    <br/>After a collected procedure, then he considered an RNA computing,
    was an incremental frequent overlap by Initon's periods and
    frequencies. For example, of AOPM VECS IDUQ TXHF DD, could have a
    frequent relative.
    <br/>
    <br/>{fA, fO, fP, fM, fV, fE, fC, fS, fI, fD, fU, fQ, fT, fX, fH, fF,
    fDD}, and could have a periodic relative.
    <br/>
    <br/>{TA, TO, TP, TM, TV, TE, TC, TS, TI, TD, TU, TQ, TT, TX, TH, TF,
    TDD},
    <br/>
    <br/>After an observation with a PDE formula relatives.
    <br/>
    <br/>TA= T{V+ S}; TO= T{E+ S}; TP= T{E+ C}; TM= T{C+ S}; TV= T{U+ Q};
    TE= T{I+ U}; TC= T{I+ D}; TS= T{I+ Q}; TI= T{E- U}; TD= T{C- I}; TU=
    T{E- I}; TQ= T{S- I}; TDD= T{D+ D}= T{FF}; TT= T{V + E}; TX= T{V+ C};
    TH= T{(HE+ HC)/ 4}= T{(E+ C)/ 2}; THE= T{H+ E}; THC= T{H+ C}; TII= T{I+
    I}= T{HH} ;.. .
    <br/>
    <br/>He began to fall in thinking for RNA computational environment.
    Then did a periodic DNA's PDE formulas below.
    <br/>
    <br/>T{I}= T(=O+ =O); T{D}= T(=O+ -NH2); T{U}= T(=O+ -NH2+ -CH3);
    T{Q}= T(=O+ =O+ -CH3); T{V}= T{Q + U}; T{E}= T{I+ U}= T{D+ U}; T{C}=
    T{I+ D}; T{S}= T{I+ Q}; T{A}= T{V+ S}; T{O}= T{E+ S}; T{P}= T{E+ C};
    T{M}= T{C+ S}; T{T}= T{V+ E}; T{X}= T{V+ C}; T{H}= T{(E+ C)/ 2}; T{HE}=
    T{H+ E}; T{HC}= T{H+ C};
    <br/>
    <br/>At here the '羟基' means a Ketonic base {=O}, not a standard {-OH}
    for hydrolysis. Here the '氨基' means an Amino {-NH2}, not a {NH3} for
    molecule.
    <br/>
    <br/>Then proved an RNA derivation.
    <br/>
    <br/>T{F}= T {D+ D}; T{FF}= T{CC}; T{HH}= T {E+ C} = T{P}; {} means an
    Initon-relation; () means a compound-relation; => T (-NH2) = T (2* =O);
    ... => T(-CH3) = T(?); f frequency= 1/ T period; For T(-NH2) = T (2*
    =O), a derivation below; T{HH}= T {E+ C}; => T (=O, =O, =O, =O) = T
    (=O, =O, -NH2); so=> T (=O =O,) = T(-NH2);
    <br/>
    <br/>At here the E Initon only had one '=O', and Initon H had two
    '=O's. Initon C both had one '=O' and one '-NH2'. Initon E for
    Hypoxanthine. Initon H for Xanthine. Initon C for Guanine.
    <br/>
    <br/>refer '2020年10月31日 8.罗瑶光. 《肽展公式推导与元基编码进化计算以及它的应用发现》.
    中华人民共和国国家版权局, 国作登字-2021-A-00042587. 2021. ' and '2020年11月29日 9.罗瑶光.
    《DNA催化与肽展计算和AOPM-TXH-VECS-IDUQ元基解码013026中文版本》. 中华人民共和国国家版权局,
    国作登字-2021-A-00042586. 2021. '
    <br/>
    <br/>Above derivations didn't contain a periodic proof of CH3, so the
    author did three arguments with Masks, Complements and Carry sign.
    Absolutely seems the Carry-use, was fitted in an observation of digital
    logics. Such as 'DD= ++Q' at page 147. For Masks proof, the mask of I
    was D, but here was Q, so the false. For Complements, the Complements
    of I was U, but here was Q, so the false. Only the Carry of I, was a D
    and had a shift increment. Became D+ Dcarry= ++Q, so the true.
    <br/>
    <br/>Finally, the author got 2 proofs of 'T (=O =O,) = T(-NH2);' and T
    (-CH3) = f (Carry).
    <br/>
    <br/>The author YaoguangLuo,稍后优化语法.


    <br/>
    <br/>结论:
    <br/>
    <br/>1 元基有其各自固有的频率公式. 2 碱基对有其各自固有的频率公式. 3 RNA 分子化合物有其各自
    固有的频率公式. 4 RNA
    中全嘌呤可被鸟嘌呤替代, 因为鸟嘌呤更稳定. 5 双 鸟嘌呤类甾体形成 的马口蹄磁铁与
    双全嘌呤类甾体形成的马蹄口磁铁互补. 6
    首次出现PDE肽展公式适用的 减法 的 周期公式. 7 全嘌呤的吸附面可以形成所有弧形rna 链, 8
    素数 K PI
    叠加通用于频率的组合叠加公 式. 9 甲基的意义已经确定周期频率中区别 氨基和羟基的第三种频率
    标识, 目前准备测试做carry 用途. 10
    与或非RNA 与数字逻辑的与或非表达 完全不同, 碱基对的羟 氨 组合 类似 二 三极管的 PN. 11
    元基的频率公式进行推导首先我会推导其
    定义域与值域 的区间, 方便更进研究. 12 我得 到一个严谨的结论: 元基是一种 拥有 语义表达,
    生化表达, 电极表达, 磁频率表达的
    四重 基本 信号单位. 同时元基也能代表一种 能量 的基本单位.
    <br/>
    <br/>Meta based initons, had their own inherent frequency formula.
    Base-pair and molecular compound also, In RNA computing, the F-full
    Initon will easy to be instead by C-controller initon, because C was
    more stably. Double C steroid and Double F steroid, which seems like a
    tinplate complement. First time we found PDN Extension, PDE did a cycle
    delete in Meta base initons. F Initon could do an arc-shaped link with
    RNA by Its adsorptional plane. A prime number N* k-Pi (3.1415926) could
    implement PDN Extension, PDE, did a cycle frequency computing of RNA
    Initons. The methyl group -CH3 could do a determination of carrying in
    Digital Logic, DL. And the frequency formula of Initons should have
    their own definition and value domains. The contrast distinction of
    hard ware DL, base-pair seems more like the PNP, NPN, NP and PN etc.
    Then I got a final essence: A Meta base Initon was a basic unit of Part
    of Speech POS, Bio-Chemistry, Eletronic Pole and Frequency Magnetism.
    Initon also was a basic unit of energy in the special environment.
    <br/>
    <br/>Author YaoguangLuo 稍后优化语法.

    <br/>
    <br/>Refer
    <br/>
    <br/>碱基对的 发现人是 J. D. Watson 和 P. H. C. Crick,
    <br/>
    <br/>数字逻辑 的补码 思想, refer 其作者 冯诺依曼, 作者在班加罗尔大学基督学院
    数字逻辑课程系统的学习了基础.
    <br/>
    <br/>傅里叶 频率周期叠加思想 refer 其作者 傅里叶 ;全嘌呤元基 TXHF-F 语义推导与定义者
    罗瑶光 ;
    <br/>
    <br/>变嘧啶元基 IDUQ-U 语义推导与定义者 罗瑶光 ;RNA 的元基芯片 计算逻辑 频率组合叠加
    驱动钥匙 发现者 罗瑶光 ;
    <br/>
    <br/>20220420补充,作者的AOPM-VECS-IDUQ-TXHF
    16元基问世后,没有将之前17元基的前后章节造字部分和罗盘部分更新F取代DD,是因为语义的思维仅仅是作者的认知思维,代表作者的个人意识理解和思维发散,不能代表全人类,于是就没有加入此书.
    见谅.
    <br/>
    <br/>应用


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